0P2P59SC35 2-59W T8 120/277V allast Philips Advance Catalog Number 0P2P59SC35 Manufacturer Philips Advance Description allast, High Frequency; nstant Start; F96T8 Lamp; 2 Lamp(S); 59 W Lamp Wattage; nput Voltage 120 to 277 V; nput Current 0.91 Ampere; nput Power 108 W; 50/60 HZ; 0.98 Power Factor; 0.87 allast Factor; 10 Percent Maximum THD; Parallel Wiring Weight per unit 1.0 (lbs/each) Product Category Linear Fluorescent Features allast Factor 0.87 nput Current 0.91 AMPERE nput Power 108 W nput Voltage 120 TO 277 V Lamp Type F96T8 Lamp Wattage 59 W Maximum THD 10 PERCENT Minimum Starting Temperature 32 DEG F Number of Lamps 2 Power Factor 0.98 Starting Type NSTANT Wiring PARALLEL Dimensions and Weight Size 9.5 NCH L X 1.7 NCH W X 1.18 NCH H Descriptions Additional nformation USED ON LAMP F72T8, F96T8/ES; PACKAGNG TYPE C PACK Commodity Description Fluorescent allasts & Accy - Description 2-59W T8 120/277V ELECTRONC ALLAST Long Description ALLAST, HGH FREQUENCY; NSTANT START; F96T8 LAMP; 2 LAMP(S); 59 W LAMP WATTAGE; NPUT VOLTAGE 120 TO 277 V; NPUT CURRENT 0.91 AMPERE; NPUT POWER 108 W; 50/60 HZ; 0.98 POWER FACTOR; 0.87 ALLAST FACTOR; 10 PERCENT MAXMUM THD; PARALLEL WRNG Product Type Linear Fluorescent allast Manufacturer nformation rand Manufacturers Part Number Model PHLPS ADVANCE OP2P59SC35 OP
Taxonomies, Classifications, and Categories Category Description ELECTRONC ALLAST Type HGH FREQUENCY Availability Manufacturer Status Packaging Carton 1 Package 10 Weight Per each 1.04 Uses, Certifications, and Standards Approval Frequency Rating Non-Stock UL, CSA 50/60 HZ
ELECTRONC FLUORESCENT ALLASTS Fluorescent allasts allast Life Philips Advance fluorescent electronic and magnetic ballasts are designed and manufactured to engineering standards correlating to an average life expectancy of 50,000 hours of operation at maximum rated case temperature. Since Philips Advance ballasts operate below their maximum case temperature in the majority of applications, increased ballast life can be expected. As a rule of thumb, ballast life may be doubled for every 10 C reduction in ballast case operating temperature. However, there are many variables, such as input voltage, ambient temperature, etc. which affect ballast operating temperatures, and therefore ballast life. Lamp Operating Frequency Electromagnetic ballasts and the lamps connected to them operate at an input voltage frequency of 60 Hertz (Hz), 60 cycles per second which is the standard alternating voltage/current frequency provided in North America. ballasts, on the other hand, convert this 60 Hz input to operate lamps at much higher frequencies above 20 Kilohertz (khz), 20,000 cycles per second. Philips Advance ballasts operate above 20 khz, but avoid certain ranges such as 30-40 khz (infrared) and 54-62 khz (theft deterrent systems) due to interference issues. ecause electronic ballasts function at high frequency, the fluorescent lighting systems that they operate can convert power to light more efficiently than systems operated by electromagnetic ballasts (See chart below). For example, lamps operated on electronic ballasts can produce over 10 percent more light then if operated on electromagnetic ballasts at the same power levels. n effect, today s electronic ballasts provide additional energy savings by matching the light output from electromagnetic ballasts while operating the lamps at lower power. This is the main reason why electronic ballast systems are more efficient than magnetic ballast system. Crest Factor Lamp manufacturers use crest factor to determine ballast performance as it relates to lamp life. Lamp Current Crest Factor is a measurement of current supplied by a ballast to start and operate the lamp. t is basically the ratio of peak current to RMS (average) current. High crest factor currents may cause the lamp electrodes to wear out faster, reducing lamp life. Crest factor requirements are regulated by ANS (American National Standards nstitute) standards and specified by lamp manufacturers. For rapid start and instant start T8 lamps the ratio is 1.7 maximum, and for instant start slimline lamps, it is 1.85 maximum. Peak Peak Crest Factor = R.M.S. R.M.S. Weight and Size Advantages Since electronic components in electronic ballasts are smaller and lighter than the core-and-coil assembly in electromagnetic ballasts, electronic ballasts can weigh less than half as much as comparable electromagnetic models. Almost all Philips Advance electronic ballasts have a smaller cross-section than electromagnetic ballasts but maintain the same mounting dimensions. This means that they can fit into all new fixture designs and can be easily retrofitted into existing fluorescent lighting systems. Controllability The ability of a building s occupants to control how they light their space is becoming an increasingly important factor for organizations in determining what real estate they will lease, buy or invest in. The ability to dim the lights or easily shut them off completely is a trend fueled not just by a desire to help the environment, but also by significant economic benefits. These benefits include greater energy efficiency in terms of reduced HVAC costs as well as energy savings for lighting more comfortable and productive working environments, and compliance with ever tighter energy efficiency regulations. Philips Advance offers five families of electronic controllable ballasts ROVR, Mark 7 0-10V, Mark 10 Powerline, PowerSpec HDF, EssentiaLine 0-10V and EssentiaLine Powerline. Compatibility With Powerline Carrier Systems A powerline carrier system (PLC) uses electronic wiring devices to send information via a high frequency signal over the 120V or 277V electrical power distribution system of a building. For example, PLC systems are used in automatic clock systems (master time systems) to synchronize all of the clocks in a building or reset the time after a power outage. They eliminate the need for maintenance personnel to reset hundreds of clocks throughout a facility. n a PLC system, a generator is used to impose a 1 to 4V high frequency signal on top of the existing voltage sine wave (60 Hz). This signal is generally in the 2500 to 9500Hz range, with some older systems operating at 19,500Hz or higher. Some electronic ballasts which are capacitive can absorb the signal from a PLC system. As a result, the signal becomes too weak to be heard by the receiver (like a timeclock) connected to the powerline. nstant Start vs. Rapid Start Sockets for Dimming When using dimming ballasts in fixtures, sockets must be of the Rapid Start type. Many fixtures with T-8 nstant Start electronic ballasts use jumpered or shunted nstant Start sockets. Controllable ballasts require two distinctly separate wires for each lamp socket. f you encounter shunted or jumpered sockets in a retrofit application, they must be removed and replaced with Rapid Start sockets. mproper socket application will damage the ballast and void the ballast warranty. Refer to ballast wiring diagram for proper installation. Color A Rapid Start Sockets nstant Start Sockets Shunted Jumpered Color Color Color A A A YES NO NO NO Fluorescent Lamp urn-n Today, most lamp manufacturers do not require the burn-in of linear fluorescent lamps prior to dimming in order to attain rated lamp life and stable electrical measurements. However, some manufacturers of compact fluorescent lamp sources do require a 100 hour burn-in prior to dimming. Consult your lamp manufacturer for their latest requirements. 1-10
ELECTRONC FLUORESCENT ALLASTS Ordering nformation How to Order Philips Lighting Systems and Controls has developed the industry s broadest distribution system for electronic ballasts. More than 3000 stocking distributors nationwide. For information on the distributor best able to serve your needs, please call 800-372-3331. Fluorescent allasts allast Part Number reakdown CF 2 S 26 H1 LD CFL Mounting/Connector Options L = ottom leads LS = ottom leads with mounting studs S = ottom mounting studs with single entry color coded connectors EL = End leads LD = Length mounting feet with SmartMate dual entry color coded connectors QS = QuikStart Linear Fluorescent Mounting/Connector Options 2LS = 2 Level Switching CFL Can Desription H1 = Hybrid metal / plastic case, size 1 M1 = Metal case, size 1 M2 = Metal case, size 2 M3 = Metal case, size 3 M4 = Metal case, size 4 M5 = Metal case, size 5 M6 = Metal case, size 6 Linear Fluorescent Can Desription 90C = 90 C maximum case temperature rating A = A can D = D can G = G can HL = High light output L = L can LW = Low watt MC = Micro can N = N can SC = Small can Corporate Offices (800) 322-2086 Customer Support/Technical Service (800) 372-3331 (+) 1 847 390-5000 (nternational) Visit our web site at www.philips.com/advance Lamp Watts (Primary lamp) Wiring Configuration D = 2D, series M = Modified parallel** P = Parallel PSP = Programmed Start Parallel Q = Quad CFL, series S = Series T = Triple CFL, series TTS = Long twin tube, series TTP = Long twin tube, parallel Maximum Number of Lamps Family Name CF = Compact Fluorescent CN = Centium DA = ROVR DL = ROVR E = AmbiStar EL = AmbiStar EZ = Mark 10 Powerline LV = EssentiaLine 0-10V M = AmbiStar OP = TR = EssentiaLine Powerline UV = PureVolt ZT = Mark 7 0-10V Plan your lighting installation carefully; consider using the services of a qualified lighting designer Consult your local electric utility regarding demand side management rebate programs. Select the Philips Advance electronic ballast which best matches the requirements of your application. The technical specifications in this catalog (located on pages 9-6 to 9-13) will be useful in obtaining bids from electrical contractors. Contact your local Philips Lighting distributor. You will find them to be a helpful supplier of both products and information. nput Voltage G = 347V H = ntellivolt 347V to 480V 50/60 Hz = ntellivolt 120V to 277V 50/60 Hz R = 120V V = 277V * Many current and all future electronic ballast part numbers will not use the RH-TP suffixes even though these ballasts will be thermally protected. ** Parallel Wiring Configuration. However, if one lamp fails, all other lamps in the circuit will extinguish. 1-11
ELECTRONC FLUORESCENT ALLASTS Fluorescent allasts CN-2S40-N CN-2S54 CN-2S54-N CN-2S54-90C-SC CN-2S86 CN-2S110-SC CN-2TTP40-SC CN-3P32-N CN-3S14-D CN-3TTP40-SC CN-4P32-N CN-4S54-90C-2LS-G DA-128-D DA-132-SC DA-154 DA-2S28-D DA-2S32-SC DA-2S54 DA-3S32-G DA-4S32 DL-2S26-M5-S DL-2S26-M5-LD DL-2T42-M5-S DL-2T42-M5-LD EZ-2S24-D LV-2S32-SC LV-4S32-G OP-1P32-HL-SC OP-1P32-LW-SC OP-1P32-SC OP-1S32-LW-SC OP-1S32-SC OP-2P32HL-SC OP-2P32-LW-SC OP-2P32-SC OP-2P59-SC OP-2PSP32-LW-SC OP-2PSP32-SC OP-2PSP54-SC OP-2S28-95-SC-SD OP-2S28-115-SC-SD OP-2S28-95-SC OP-2S28-115-SC OP-2S32-LW-SC OP-2S32-SC OP-3P32-HL-90C-SC OP-3P32-LW-SC OP-3P32-SC OP-3PSP32-LW-SC Allowed Wiring Configuration Remote (max length) Maximum Lead Length (Feet) for Tandem or Through Wiring (Total length of all wires between ballast and lamp sockets) Tandem Through lue Red Yellow lue/white rown Orange Application Note 20 Yes Yes 4 10 10 2 20 Yes Yes 20 4 20 3 20 Yes Yes 20 4 20 3 20 Yes Yes 20 4 20 3 12 Yes Yes 12 4 12 3 (b) 20 Yes Yes 4 20 20 2 20 Yes Yes 20 20 1 20 Yes Yes 20 20 1 20 Yes Yes 20 20 20 1 (e) 20 Yes Yes 20 4 4 20 20 20 7 6 NA NA 4 No NA NA 5 No NA NA 5 6 Yes Yes 6 6 6 1 No No Yes 5 4 4 3 No No Yes 5 4 4 3 No No Yes-8 1 1.25 5.2 1.25 4.2 3 No No Yes 3 2 2 3 6 Yes Yes 6 6 6 1 No No Yes-8 1 1.25 5.2 1.25 4.2 3 20 NA NA 1 (e) 20 NA NA 1 (e) 20 NA NA 1 (e) 10 NA NA 4 10 NA NA 4 20 Yes Yes 20 20 18 1 (e) 20 Yes Yes 20 20 18 1 (e) 20 Yes Yes 20 20 15 1 7 Yes Yes 7 7 7 1 7 Yes Yes 7 7 7 1 20 Yes Yes 20 20 20 1 20 Yes Yes 20 20 20 1 10 Yes Yes 4 10 10 2 (d) 10 Yes Yes 4 10 10 2 (d) 20 Yes Yes 20 20 18 18 1 (e) 1-16 For nominal input voltage and 25 C ambient temperature. See all notes on page 1-19..
ELECTRONC FLUORESCENT ALLASTS T8 Slimline For 46-59W Lamps HGH POWER FACTOR SOUND RATED A Fluorescent allasts No. of Lamps nput Volts Lamp Starting Method allast Family Catalog Number nput Power ANS (Watts) allast Factor Max. THD % Line Current (Amps) Min. Starting Temp. ( F/ C) Dim. Wiring Dia. F72T8 (46W) 1 120-277 S OP-2P59-SC 54 1.09 10 0.46-0.20 32/0 2 120-277 S OP-2P59-SC 88 0.92 10 0.74-0.32 32/0 F96T8/ES (57W) 1 2 120-277 120-277 F96T8 (59W) 1 120-277 2 120-277 S S S S OP-2P59-SC 64 1.05 10 0.54-0.24 OP-2P59-SC 103 0.87 10 0.86-0.37 OP-2P59-SC OP-2P59-SC 67 1.05 10 0.56-0.25 107 0.87 10 0.91-0.39 60/16 60/16 32/0 32/0 *64A 64A *64A 64A *64A 64A WHTE LACK RED ALLAST LUE LUE 1.18" 8.90" 9.5" LNE LAMP LAMP 1.7" *FOR SNGLE LAMP OPERATON, NSULATE UNUSED LUE LEAD FOR 1000V Fig. Diag. 64A Refer to pages 9-23 to 9-27 for lead lengths and shipping data 1-62